/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ /* * * (C) Copyright IBM Corp. and others 1998-2013 - All Rights Reserved * */ #include "LETypes.h" #include "MorphTables.h" #include "StateTables.h" #include "MorphStateTables.h" #include "SubtableProcessor2.h" #include "StateTableProcessor2.h" #include "ContextualGlyphSubstProc2.h" #include "LEGlyphStorage.h" #include "LESwaps.h" U_NAMESPACE_BEGIN UOBJECT_DEFINE_RTTI_IMPLEMENTATION(ContextualGlyphSubstitutionProcessor2) ContextualGlyphSubstitutionProcessor2::ContextualGlyphSubstitutionProcessor2( const LEReferenceTo &morphSubtableHeader, LEErrorCode &success) : StateTableProcessor2(morphSubtableHeader, success), contextualGlyphHeader(morphSubtableHeader, success) { if(LE_FAILURE(success)) return; le_uint32 perGlyphTableOffset = SWAPL(contextualGlyphHeader->perGlyphTableOffset); perGlyphTable = LEReferenceToArrayOf (stHeader, success, perGlyphTableOffset, LE_UNBOUNDED_ARRAY); entryTable = LEReferenceToArrayOf(stHeader, success, entryTableOffset, LE_UNBOUNDED_ARRAY); } ContextualGlyphSubstitutionProcessor2::~ContextualGlyphSubstitutionProcessor2() { } void ContextualGlyphSubstitutionProcessor2::beginStateTable() { markGlyph = 0; } le_uint16 ContextualGlyphSubstitutionProcessor2::processStateEntry(LEGlyphStorage &glyphStorage, le_int32 &currGlyph, EntryTableIndex2 index, LEErrorCode &success) { if(LE_FAILURE(success)) return 0; const ContextualGlyphStateEntry2 *entry = entryTable.getAlias(index, success); if(LE_FAILURE(success)) return 0; le_uint16 newState = SWAPW(entry->newStateIndex); le_uint16 flags = SWAPW(entry->flags); le_uint16 markIndex = SWAPW(entry->markIndex); le_uint16 currIndex = SWAPW(entry->currIndex); if (markIndex != 0x0FFFF) { if (markGlyph < 0 || markGlyph >= glyphStorage.getGlyphCount()) { success = LE_INDEX_OUT_OF_BOUNDS_ERROR; return 0; } le_uint32 offset = SWAPL(perGlyphTable(markIndex, success)); LEGlyphID mGlyph = glyphStorage[markGlyph]; TTGlyphID newGlyph = lookup(offset, mGlyph, success); glyphStorage[markGlyph] = LE_SET_GLYPH(mGlyph, newGlyph); } if (currIndex != 0x0FFFF) { if (currGlyph < 0 || currGlyph >= glyphStorage.getGlyphCount()) { success = LE_INDEX_OUT_OF_BOUNDS_ERROR; return 0; } le_uint32 offset = SWAPL(perGlyphTable(currIndex, success)); LEGlyphID thisGlyph = glyphStorage[currGlyph]; TTGlyphID newGlyph = lookup(offset, thisGlyph, success); glyphStorage[currGlyph] = LE_SET_GLYPH(thisGlyph, newGlyph); } if (flags & cgsSetMark) { markGlyph = currGlyph; } if (!(flags & cgsDontAdvance)) { currGlyph += dir; } return newState; } TTGlyphID ContextualGlyphSubstitutionProcessor2::lookup(le_uint32 offset, LEGlyphID gid, LEErrorCode &success) { TTGlyphID newGlyph = 0xFFFF; if(LE_FAILURE(success)) return newGlyph; LEReferenceTo lookupTable(perGlyphTable, success, offset); if(LE_FAILURE(success)) return newGlyph; le_int16 format = SWAPW(lookupTable->format); switch (format) { case ltfSimpleArray: { #ifdef TEST_FORMAT // Disabled pending for design review LEReferenceTo lookupTable0(lookupTable, success); LEReferenceToArrayOf valueArray(lookupTable0, success, &lookupTable0->valueArray[0], LE_UNBOUNDED_ARRAY); if(LE_FAILURE(success)) return newGlyph; TTGlyphID glyphCode = (TTGlyphID) LE_GET_GLYPH(gid); newGlyph = SWAPW(lookupTable0->valueArray(glyphCode, success)); #endif break; } case ltfSegmentSingle: { #ifdef TEST_FORMAT // Disabled pending for design review LEReferenceTo lookupTable2 = (SegmentSingleLookupTable *) lookupTable; const LookupSegment *segment = lookupTable2->lookupSegment(lookupTable2->segments, gid); if (segment != NULL) { newGlyph = SWAPW(segment->value); } #endif break; } case ltfSegmentArray: { //printf("Context Lookup Table Format4: specific interpretation needed!\n"); break; } case ltfSingleTable: { #ifdef TEST_FORMAT // Disabled pending for design review LEReferenceTo lookupTable6 = (SingleTableLookupTable *) lookupTable; const LEReferenceTo segment = lookupTable6->lookupSingle(lookupTable6->entries, gid); if (segment != NULL) { newGlyph = SWAPW(segment->value); } #endif break; } case ltfTrimmedArray: { LEReferenceTo lookupTable8(lookupTable, success); if (LE_FAILURE(success)) return newGlyph; TTGlyphID firstGlyph = SWAPW(lookupTable8->firstGlyph); TTGlyphID glyphCount = SWAPW(lookupTable8->glyphCount); TTGlyphID lastGlyph = firstGlyph + glyphCount; TTGlyphID glyphCode = (TTGlyphID) LE_GET_GLYPH(gid); if ((glyphCode >= firstGlyph) && (glyphCode < lastGlyph)) { LEReferenceToArrayOf valueArray(lookupTable8, success, &lookupTable8->valueArray[0], glyphCount); if (LE_FAILURE(success)) { return newGlyph; } newGlyph = SWAPW(valueArray(glyphCode - firstGlyph, success)); } } default: break; } return newGlyph; } void ContextualGlyphSubstitutionProcessor2::endStateTable() { } U_NAMESPACE_END